Modular rotational electric actuator
First Claim
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1. A modular rotational electric actuator, comprising:
- an output housing including a front housing portion and a rear housing portion;
the output housing including;
internal drive components operatively located within the output housing, said internal drive components comprising;
(i) a motor comprising a stator connected to a motor side housing and a rotor that rotates relative to the stator when the stator is energized;
(ii) a first stage gear train assembly operatively coupled to said rotor; and
, (ii) a second stage gear train assembly operatively coupled to said first stage gear train assembly to receive torque from said first stage gear train assembly and to output torque to said rear housing portion to rotate said rear housing portion relative to said front housing portion; and
control electronics integrated within the output housing and in communication with the internal drive components, the control electronics including at least one sensor operatively coupled to at least one of the internal drive components, the at least one sensor operative to provide at least one signal or value to the control electronics indicative of a position, a torque, a load, or a speed associated with the actuator;
a joint connector operatively coupled to the motor side housing and externally located on the front housing portion, wherein said joint connector is operatively coupled to said motor side housing through a resilient elastic member that allows for limited relative movement between the joint connector and the motor side housing to absorb impact loads;
the rear housing portion comprising at least one structure adapted to mate with and positively engage an associated component to be rotationally driven by the rear housing portion when the rear housing portion rotates relative to said front housing portion;
said first stage gear train assembly comprising a planetary gear assembly operatively coupled to said rotor and comprising a ring gear, a sun gear, and a plurality of planet gears supported by a planet carrier, wherein said rotor provides input torque to said planetary gear assembly and said carrier provides a torque output from said planetary gear assembly to said second stage gear train assembly;
said second stage gear train comprising a cycloidal gear assembly comprising;
(i) a cam operatively coupled to receive torque from said planet carrier of said first stage gear train assembly;
(ii) a cycloidal ring gear comprising internal teeth, said cycloidal ring gear coupled to the rear housing portion to output torque to the rear housing portion; and
(iii) a cycloidal wobble gear comprising external teeth engaged with the internal teeth of the cycloidal ring gear and driven by the cam such that rotation of said cam imparts an eccentric wobble motion to said cycloidal wobble gear within said cycloidal ring gear and said cycloidal wobble gear drives said cycloidal ring gear and said rear housing portion with reduced speed and increased torque relative to said planet carrier.
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Abstract
A modular rotational electric actuator includes an output housing and internal drive components that include integrated control electronics, a torque sensor, and a portion of a joint assembly. The joint assembly includes a joint connector coupled to the internal drive components, including integrated control electronics, e.g., by a resilient member. The resilient member elastically couples the joint connector to a portion of the output housing, the joint connector including a portion that extends outward therefrom.
47 Citations
23 Claims
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1. A modular rotational electric actuator, comprising:
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an output housing including a front housing portion and a rear housing portion; the output housing including; internal drive components operatively located within the output housing, said internal drive components comprising;
(i) a motor comprising a stator connected to a motor side housing and a rotor that rotates relative to the stator when the stator is energized;
(ii) a first stage gear train assembly operatively coupled to said rotor; and
, (ii) a second stage gear train assembly operatively coupled to said first stage gear train assembly to receive torque from said first stage gear train assembly and to output torque to said rear housing portion to rotate said rear housing portion relative to said front housing portion; andcontrol electronics integrated within the output housing and in communication with the internal drive components, the control electronics including at least one sensor operatively coupled to at least one of the internal drive components, the at least one sensor operative to provide at least one signal or value to the control electronics indicative of a position, a torque, a load, or a speed associated with the actuator; a joint connector operatively coupled to the motor side housing and externally located on the front housing portion, wherein said joint connector is operatively coupled to said motor side housing through a resilient elastic member that allows for limited relative movement between the joint connector and the motor side housing to absorb impact loads; the rear housing portion comprising at least one structure adapted to mate with and positively engage an associated component to be rotationally driven by the rear housing portion when the rear housing portion rotates relative to said front housing portion; said first stage gear train assembly comprising a planetary gear assembly operatively coupled to said rotor and comprising a ring gear, a sun gear, and a plurality of planet gears supported by a planet carrier, wherein said rotor provides input torque to said planetary gear assembly and said carrier provides a torque output from said planetary gear assembly to said second stage gear train assembly; said second stage gear train comprising a cycloidal gear assembly comprising;
(i) a cam operatively coupled to receive torque from said planet carrier of said first stage gear train assembly;
(ii) a cycloidal ring gear comprising internal teeth, said cycloidal ring gear coupled to the rear housing portion to output torque to the rear housing portion; and
(iii) a cycloidal wobble gear comprising external teeth engaged with the internal teeth of the cycloidal ring gear and driven by the cam such that rotation of said cam imparts an eccentric wobble motion to said cycloidal wobble gear within said cycloidal ring gear and said cycloidal wobble gear drives said cycloidal ring gear and said rear housing portion with reduced speed and increased torque relative to said planet carrier. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A modular rotational electric actuator, comprising:
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an output housing including a front housing portion and a rear housing portion; the output housing including; internal drive components operatively located within the output housing, said internal drive components comprising;
(i) a motor comprising a stator connected to a motor side housing and a rotor that rotates relative to the stator when the stator is energized;
(ii) a first stage gear train assembly operatively coupled to said rotor; and
, (ii) a second stage gear train assembly operatively coupled to said first stage gear train assembly to receive torque from said first stage gear train assembly and to output torque to said rear housing portion to rotate said rear housing portion relative to said front housing portion; andcontrol electronics integrated within the output housing and in communication with the internal drive components, the control electronics including at least one sensor operatively coupled to at least one of the internal drive components, the at least one sensor operative to provide at least one signal or value to the control electronics indicative of a position, a torque, a load, or a speed associated with the actuator; a joint connector operatively coupled to the motor side housing and externally located on the front housing portion; the rear housing portion comprising at least one structure adapted to mate with and positively engage an associated component to be rotationally driven by the rear housing portion when the rear housing portion rotates relative to said front housing portion; said first stage gear train assembly comprising a planetary gear assembly operatively coupled to said rotor and comprising a ring gear, a sun gear, and a plurality of planet gears supported by a planet carrier, wherein said rotor provides input torque to said planetary gear assembly and said carrier provides a torque output from said planetary gear assembly to said second stage gear train assembly; said second stage gear train comprising a cycloidal gear assembly comprising;
(i) a cam operatively coupled to receive torque from said planet carrier of said first stage gear train assembly;
(ii) a cycloidal ring gear comprising internal teeth, said cycloidal ring gear coupled to the rear housing portion to output torque to the rear housing portion; and
(iii) a cycloidal wobble gear comprising external teeth engaged with the internal teeth of the cycloidal ring gear and driven by the cam such that rotation of said cam imparts an eccentric wobble motion to said cycloidal wobble gear within said cycloidal ring gear and said cycloidal wobble gear drives said cycloidal ring gear and said rear housing portion with reduced speed and increased torque relative to said planet carrier. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20, 21, 22)
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23. A modular rotational electric actuator, comprising:
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an output housing including a front housing portion and a rear housing portion; the output housing including; internal drive components operatively located within the output housing, said internal drive components comprising;
(i) a motor comprising a stator connected to a motor side housing and a rotor that rotates relative to the stator when the stator is energized;
(ii) a first stage gear train assembly operatively coupled to said rotor; and
, (ii) a second stage gear train assembly operatively coupled to said first stage gear train assembly to receive torque from said first stage gear train assembly and to output torque to said rear housing portion to rotate said rear housing portion relative to said front housing portion; andcontrol electronics integrated within the output housing and in communication with the internal drive components, the control electronics including at least one sensor operatively coupled to at least one of the internal drive components, the at least one sensor operative to provide at least one signal or value to the control electronics indicative of a position, a torque, a load, or a speed associated with the actuator; a joint connector operatively coupled to the motor side housing and externally located on the front housing portion; the rear housing portion comprising at least one structure adapted to mate with and positively engage an associated component to be rotationally driven by the rear housing portion when the rear housing portion rotates relative to said front housing portion; said first stage gear train assembly comprising a planetary gear assembly operatively coupled to said rotor and comprising a ring gear, a sun gear, and a plurality of planet gears supported by a planet carrier, wherein said rotor provides input torque to said planetary gear assembly and said carrier provides a torque output from said planetary gear assembly to said second stage gear train assembly; said second stage gear train comprising;
(i) a torque input operatively coupled to receive torque from said planet carrier of said first stage gear train assembly; and
(ii) an output ring gear coupled to the rear housing portion to output torque to the rear housing portion, wherein said output ring gear and said rear housing portion are driven by said torque input of said second stage gear train with reduced speed and increased torque relative to said planet carrier;a first electrical compartment located adjacent said joint connector of said front housing portion and containing a first part of said control electronics; a second electrical compartment spaced from said first electrical compartment adjacent said rear housing portion and containing a second part of said control electronics; a hollow shaft that extends between said first electrical compartment and said second electrical compartment; through joint wiring that extends through said hollow shaft to operatively connect the first part of the control electronics located in said first electrical compartment to the second part of the control electronics located in said second electrical compartment.
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Specification